Accounting system.



. TALLIVADGE.

ACCOUNTING SYSTEM.

7 SHEETS-SHEET l.

Inval-1 mr` aTlEs H.Tallmad a Wnlasfaes @we @f/M- www ETRE E C. H. TALLMADGE.

ACCOUNTING SYSTEM. APPLICATION FILED MAY 21, 1909.

Patented July` 13, 1915.

7 sHEETs-SIIEET 2f.

Wwf/065565:

C. H. TALLNIADGE ACCOUNTING SYSTEM.

APPLICATION FILED MAY 21. Isosa.`

Patented July 13, 1915.

7 SHEETS-SHEET 3.

C. H. TALLMADGE.

ACCOUNTING SYSTEM.

APPLICATION FILED MAY 211, 1909. 1,1461 13, Patented July 13, 1915.

I SHEETS-SHEET 4.

A @formez/5 C. H. TALLNIADGE.

ACCOUNTING SYSTEM.

APPLICATION FILED MAYZI. 1909.

1,146,113. .Patented Ju1y13,1915.

T SHEETS-SHEET 5,

C. H. TALLMADGE.

ACCOUNTING SYSTEM.

APPLlcAsloN FlLEo MAY21,1909.

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ACCOUNTING SYSTEM.

y APPLICATION min MAYZI. 1909.

.Patented July 13, 1915.

7 SHEETSSHEET 7.

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CHARLES H. TALLMADGE, 0F CHICAGO,` ILLINOIS, .ASSIG-No, '.BY4 MESN ASSIGNMENTS,

TO WILLIAM E. HEATH, OF BUFFALO, NEW YORK.

.ACCOUNTING SYSTEM.

Specicationof Letters latent.

Application 'led Hay 21, 1909. Serial No. 497,1l89.

T0 all whom it may concern:

Be it known that I, CHARLES H.. TALL- Manon, a citizen of the United States, residing at Chicago, in the county of Cook and State of Illinois, have invented certain new and useful Improvements in Accounting Systems, of which the -following is a full, clear, concise, and exact description, reference being had to the accompanying drawings. forming a partof this specification.

My invention relates to improvements in accounting systems and in particular contemplates improved means for making permanent records of expenses whichk are incurred in the operation lof a factoryor other industrial establishment.

In a copending` application, Seria-lNumbei 437,809, means are disclosed whereby the eosts'of various jobs invarious-departments of a factorymay be automatically indicated. According to that System, however, it is necessary from time to time to make a manual record of the expenses which are thus indicated, and after the indicating registers have 4been decumulated or Set back to zero there 1S no way of checking up the records which have been manually z made.

'v T lint involves not only a certain amount of izov clerical labor vbut 'also :i liability to inaccuracy and Ian inherent uncertainty even when the clerical work may be, as a matter of fact, quite accurate.

According to my present invention, when -a given job is completed. and the cost thereof accumulated upon suitable indicating registers, it is possible to decumulate the indicating registers automaticallyand mechanically to transfer the amounts to printing registers. When the indicating registers have been1 entirely decumulated, means are vprovided forl stopping the decumulating process,`the result being that the vprinting lregisters are aetuatedmto show exactly the same amount which the indicating registers showed before they were decumulated. When this transfer vis completed a permanent record may be made from the printing registers upon the original order sheet; and, if desired. upon another loose leaf, or on a suitable roll of paper thus reserving a jobs. It is evident that by this method mechanical accuracy is attained and at the saine time there is 'great saving in clerical labor, After a vrecord has been made from the printing registers, they may be manually vreset to zero and subsequently connected to the actuating mechanisms for another set of indicating registers and the operation may be repeated. Not .only is it provided that the actual. expenses shall be transcribed to a ernianent record but a register is employe by which an order number may be manually set up, and upon the decumulation of' the indicating registers, this order number is simultaneously transferred to the printing registers, and together with the proper date, is subse uently rinted on the records. These an other a vantages of my invention will be more apparent in the following detailed description in connection with which reference should be made to the accompanying drawings, in which- Figure 1 is a diagrammatic representation of the operation of my System as a whole, Fig. 2 is a face view of the electromagnetic actuatingl mechanism for the indicating'ieg'- isters, Fig. 3 'is `a side view ofv the arts shown in Fig. 2, Fig. 4 is an enlarge sectional view on the line 4-4 ofvFi'g. 2, Fig. 5 isa'sectional view on the line 5--5 of Fig. 4, Fig. 6 is a side elevation and partly sectional view of the electromagneticactuating mechanism associated with 'the order Ilumber register, Fig. 7' is .a plan view 'of the mechanism shown in Fig. 6, Fig. 8v is a plan view of' the printing registers vand associated mechanism, Fig. 9 is a sectional view von the line 9.-9 of Fig. 8, and Fig. 10 is an order blank as it would appear after the entries have been made Aby the printing mechanism.

IIn order to clearly understand the operation of my system, I will describe first the detailed mechanisms used in connection with them and will then describe the .system as a whole.

Figs. 2, 3, 4 and 5 lrepresent various views of an indicating register and the electromagnetic actuating and decumulating mechanism associated therewith. Energizing windigs 1 and 2'of an electromagnet are mounted on cores 3 and 4' which cores are connected at one end by.` a magnetic yoke 5. The cores 3 and 4 are .threaded at their working ends and have secured thereto by means of the adjusting nuts 6 and 7 a nonmagnetic yoke 8,

"from the middle of which depending ears 9 'an arm or lever 15 which extends around the ear 9 and upward in front of the windings 1 and 2. v At its upper end the arm 15 carries 'a lug 16. The lug 16l engages a slot 1'7 in the lower end of a double ypawl 18 pivoted vat 19 to a lever-20 loosely-mounted on the operating shaft 21 of the register 22. The pawl 18hasV two upwardly extending arms 23 and 24 adapted to engage the ratchet wheel 25 rigidlysecured to the shaft 21. The lever 20 is normally held to its vertical position, by the spring 26 secured thereto by means of a `Pin 27, the other end of this spring being held by a bracket 28 secured to the register 22. As a resultI of the construction above described when the armature 13 is moved byr the energization ofthe electro-.1 magnet in a direction to move the lever 15 to the right the pawl 18 is moved around to the lefton its pivot 19. Since the lever 20 is maintained in its normalA position by `means of the spring-26, when the arm 23 engages thev ratchet wheels 25 the pawl 18 and. lever 20 are moved together against the action of ,the spring26 to turn the ratchet wheel 25and shaft'21 to advance the indicator wheel '29 one step'. The Iregister 22 mounted inthe casing 22 may be of any well known typein which aplurality of indicator wheels is used, each wheel being adaptedby its rotation to actuate the wheel of next higher order when such first wheel passes from its maximum indication to its zero indication. If the electromagnet is energized in such manner as to cause the armature 13 to move the lever 15 to the left, the pawl 18 is rotated around to the right on its pivot 19 as a result of which the arm 24 engages the ratchet wheel 25 and the subsequent motion of the lever 15 moves the ratchet wheel 25 and shaft 21 to operate the indicator wheel 29 one step lin the -opposite direction to that in'which it was moved by the operation previously described. Itis evident` that by this mechanism the register 22 may be operated to either accumulate or decumulate as desired.

The yoke 8 which supports the armature 13 may be moved relatively to the windings 1 and'2 by loosening the nuts 6 and 7 and therefore the amount of motion imparted to the armature 13 and ratchet wheel 25 can be changed as desired, which is necessary in order to secure the proper adjustment of mechanism to change the reading of the register 22 by the correct amount for each motion of the armature 13. A hole 30 is The circuit, in which the electromagnet is included, is provided with a switch having terminals 32 and 33, the terminal-32 being provided with a-'cont'act 34. The two terminals are suitably insulated `from each other by means ofthe insulating block 35. In connection with the register v22 is provided a shaft 36 on which is pivoted a frame con-v sisting of the lateral arms 37 and thereonnecting strip of .insulating material 38. Mounted between thek arms 37-37 isfa rod 39 on which is mounted the sleeve 4() rovided at intervals with annular projectlons 41. The indicating wheels 29, 42,43 and 44,

of the register 22 are provided at suitable intervals with depressions 45. AWhen all of the indicating wheels 29, 42, 43 and 44 are in such positlon that they all indicate zero,

the arms 37 as shown in Fi 5 will be moved to the left, the annular projections 41 falling into the depressions in the indicating wheels, the terminal 33 being made of suitable spring material so that thearms 37 willbe moved toward the let.' By this means the terminal 33 is carried away from the contact 34 and .the circuit in which the electromagnetic mechanism is included is thereby broken.

The various indicating wheels for the register 22 may be advanced by any of the well known means but the mechanism which I prefer has the following bonstrnction: A pinion 46 is loosely mounted on the shaft 47. VThis pinion has teeth 48 which-l extend across ,the entire width of the pinion and" alternating with these teeth are teeth 494 which extend partly across the width of the pinion. Each indicating wheel is rovided with a cam .501 having members which form between them a notch 50, the members forming this notch being adapted to pass the teeth 49 but to operate in mesh with the teeth 48. As shown in Fig. 4 the cam 50 is preferably made to be at the right of each indicating wheel. To the left of each indicating wheel is rigidly mounted a gear 51j' which is adapted to operate in mesh with the teeth 48 and 49 of the pinion 46. It is now evident that as indicator wheel 29, for example, is revolved, the notch 50 will engage one of the teeth 48 and the pinion 46 will thereby be rotateda sufficient distance to move the indicating wheel 42 forward one number. As the indicating wheel 29 continues to revolve the portion 53 of the indicating wheel will occupy a position between the left hand end of the tooth 49 and the edge of the. pinion 46, the teeth 48 being placed a sufficient distance apart so that they will not interfere with the portion 53 of the indicating wheel. By this means. it is evident, that after theunit indicating wheel has advanced nine numbers, the tenth number will cause a rotation of one number in the wheel indicating tens and correspondingly when this wheel has advanced nine so. l.

numbers the rotation ofthe tenth number will advance the wheel indicating hundredsV one number.

Turning now to thedecumulating mechanism associated with the register for showing the order numberV as illustrated in Figs. 6 and7, 54 is an electromagnet having windings about the 4core 55. Associated'with the Q core is an armature 56"'pivoted at 57. l.

Pivoted to the free l end of the armature 56 is the arm -58 provided with a tooth 59 ladapted to engage corresponding teeth of the ratchet60. A spring 61 is attached at one end to the bracket 62 and at the other end to the pin 63 mounted on vthe armature 56. It is evident that the spring 61 serves l to keep the armature 56 in a osition indicated: in full linesin Fig. 6.

he ratchet v is looselymounted 011 the shaft -65 and rigdescribed above.

idly connected to the unit indicating wheel of the register 66. The construction of this register is similar to that of the register 22 Associated with f the ratchet 60 is'a pawl 67 pivoted at 68 and provided with. a counter weight 69 which tends'lto hold the pawl in engagement with the teeth of the ratchet 60. The operation of this electro-magnetic mechanism is now apparent. When the windings of the electromagnet 54 are energized the armature 56 is attracted and moved into the position shown in dotted lines inFig. 6. `The arm 58v i is. moved to the right and engages with the next tooth of' the ratchet 60, this ratchet being held from rotation by means of the pawl 67. Vhen the-electromagnet is dei .y energized the spring 61 becomes effective 40 strict'edby the projecting pin 90.

and thel armature 56 and the arm 59 are `moved tothe left thereby advancing the register. The movement of the arm 59 is re- 4Pivoted to the shaft 70 isa frame 1 on which vis mounted a shaft 72 carryingthe pinions 73, these pinions 73 fulfilling the same function with respect to the register {izinons 46 in the case .o f the reg- `ivoted to the lower end of the 75. .The rod74 is provided with a ndle 76.v It isevident that when the rod ugs 78 are lon 73 and therebyprevent the pinions from rotating when they are-disengaged from the register. A spring 79v is rigidly mounted on .the frame of the electromagnet 54 and when the rod 74 is moved to the right as shown in Fig. 6, the angular portion 8O of thel spring 79 en agesthe notch -75 of the rod 74 and there y holds the same against accidental movement.

Loosely mounted on the shaft is the 5 arm 81 to which is rigidly connected the frame 82 carrying the shaft 83 on which is looselyv mounted the sleeve 84 having the annular projections 85. Depressions are provided atsuitable points in the peripheries ofthe indicating wheels of the register 66, so that-in decumulating, when all of the wheels indicate zero, the annular projections 85 will drop intothese depressions thereby moving the arm 81 to the leftas shown in Fig. 6.

. The circuit in which` the .windings of the electro-magnet 54 are included, is provided with a -contact mechanism having terminals 86 and 87 rigidly mounted in the insulating block 88. The terminal 86 is provided with the contact 89 and the terminal 87 is made of suitable spring material so that it is normally separated from the contact 89 but may be brought into connection therewithwhen the arm 81 is moved to the right as shown in Fig. 6. It is evident, therefore, that when the register 66 is decumulated and all of the indicating wheels are at 0, the arm 81 is moved to the left as shown 'in Fig. 6 and the circuit, in which the electro-magnet 5i is included, is automatically broken.

Turning now to a description of the printing mechanism as illustrated in Figs. 8l and 9, 91 and 92 are two electromagnets, the windings of which are connected in a suitfable circuit. 'T he number of these electro-l magnets and the mechanism which is actuated by them corresponds to thenumber of indicating registers the readings of which it is desired to transfer to a permanent rec ord. Associated with the cores 93 and 9i of Vthe electromagnets 91v and 92, are the armatures 95 and 96 pivotally connected by means of the brackets 97 and 98 with the supporting frame work-99 which is rigidly mounted on the base 100. The movement of the armatures95 and 96 are controlled by the detents 101 and 102`- Pivoted to the free end of each armature is a-bell crank 103. Attached to the end of one arm of thesev bell cranks are thesprings 104, the other end of. which is rigidly attached to the pin 105. The printing registers 106 are similar. to the indicating registers which have been described above, consisting of a plurality of wheels'107 'associated with which are the gears 108 and the cams 109. Coperating with the gears 108 and the cams 109 are the pinions or so-called carry-overs 110. On the peripheries of the wheels 107 are mounted suitable type plates 111, from which permanent records can be made as will be described hereafter. The wheels 107v are loosely mounted on the shafts 112. Rigidly connected to the unit wheel of the recording register is the ratchet 113. It islnow evident that when the electromagnet 91 is energized, the armature 95 is attracted as shown in Fig. 9. When the same electromagnet is denergizcd, the spring 104 becomes operative and by Ameans of the bell ycrank 103. and

the coperating ratchet 113, the wheel 107 is r.providedin order to prevent the ratchet 113 and the attached wheel from moving in -a backward direction when the armature is again attracted by the electromagnet.

In the disk or wheel 107 is provided an aperture 114 in which the pawl 115 is .free to operate. The pawl 115 is pivotally mounted at 116 on the disk 107, a recess 117 being provided for that purpose. Coperating with the pawl 115 is the spring 118 which ismounted in the disk 107. In the shaft 112 is provided a groove 119 in which the pawl 115 is adapted to fit.

Each of the pinions or carry-overs 110 is pivotally mounted on the frame 120, this frame being itself pivotally mounted at 121. Pivotally mounted on the' extensions 122 of 'the frame 120 is the link 123,- the pivotal connections being made at 124. A shaft 125 isvprovided with a cam 126 l having a pin 126, which operates in the slot 127 provided in an extension from the link 123. Rigidly attached to shaft 125 is a knurled handle 125a projecting from the frame work. It is now clear that when theshaft 125 is rotated move the link 123 to the right or left, as the case may be, as shown'in Fig. 9. lWhen the link 123 is moved to the right, by means of the arms 120 the pinions 110 will bev carried to the left and will occupy the position shown in dotted lines in Fig. 9.- Lugs 128 are mounted on the frame work of the mechanism and when the pinions 110 are moved out of mesh with the gears ofV the registers, these lugs operate to prevent the pinions from rotating.

Wheels or disks 107 are loosely mounted 0n the shafts 112. When the pinions 110 are removed from mesh with the lgears attached to the disks 107, the shafts 112 may be rotated in a clock-wise direction, as shown in Fig. 9, by means of the knurled handle 129. The groove 119 extends the whole length of the shaft 112 and inasmuch as each of the disks 107 is provided with a pawl 115 with its coperating spring 118, it is evident that as ,the shaft 112 is rotated in a clock-wise direction, the disks 107 will be moved with the -shaft 112 as soon as the pawl 115 of each individual disk engages with the groove 119. By this means, the same numbers on the various disks will be brought into the same line and the disks maythen be moved together until the zeros are placed in the desired position. In order to facilitate this-operation the handle 129 is provided with a projecting pointer 130. When this pointer 130 comes opposite to the line 131 on the frame, the

type.of the printing register is in such posi-V turn, loosely mounted on the shaft 137. The

gears 134 and 135 are the same diameter so that when the disks 132 are revolved, the disks 136 are also revolved an equal amount. On the' disks-132 are provided Words indicating the months, numerals indicating the days ofthe month, and additional numerals indicating the year. These are clearly shown in Fig. 8. On the surface of the disks' 136 are provided printing plates 138 which are adapted to print' the same `words or numerals which appear on the disks 1-32 'through thev opening-139 of the frame 99. For example, if the legend April 8, 1908 appears on the upper part of the disks 132, the printing plates bearing thisl legend will be on the lower part of disks 136. By means of the projecting teeth of the gears 134, the disks may readily 'be manually set as desired. In order to retain the disks in their proper positions, a flat rodl 140,`provided with ahandle 141, is mounted in the frame work 99. This rod 140 is provided with notches 142. 4Apin 143 is rigidly attached to the side of the rod 140 and a spring 144 is attached to the pin 143. The

other end of this spring is attached to the frame Work 99. In its normal position, as shown in Fig.'8, lt e lrod 140locks the gears 134 in position. en the handle 141 and the rod 140 are pressed inwardly, the notches 142 are moved into position opposite the l gears 134 and the disks 132 are thereby' capable of being rotated as desired. When the desired positions of the disk are reached, the handle 141 is released and by means of the -spring 144, the rod 141 is brought into its normal locking position. l

Toward each end of the frame 99 are shafts 145 and 146 to which are attached handles 147 and 148 projecting` outside of the frame work. On these shafts are rigidly mounted rollers 149 and '150 provided with anges 151 and 152. The roller 149 is adapted to carry a roll of paper 153. As shown in Figs. 8 and 9, the paper of this roll may be carried underneath the printing mechanism and rewound on the roller 150, this operation being carried on by means of rotation of the knurled handle 148. Ex-

tgjniin'g1abrizioritally through the "frame ings" V155 'innconnection with each of the .p lntingv mechanisms. Directly .under the intingjmechanisms is a movable shelf 156 rovided with brackets157 *carrying slots 5.8,?" These :slots are .adaptedv to coperate l h pins or'lugs 159 which are mounted on p :tliefframeb-Work and carrythewei'ght of the "*`shelf,156.' 'A150 mounted onl the shelf 156 gf is the lbracket160 to which is pivotally atjtacliedylthelink 161, the'fother fendof this #linkfbeingfloo'sely mountedon the shaft 162.

"The'rod '163 is also looselymounted-Von the isfsame; shaft '162, as'welijas the drm-"164 0f the'bell crank 165'wl1ich'isA loosely mounted con theifshaft;y 166. Rigidlyf attached t'o the I AIA/hel-ll.;crank 1565yi's the s eeve167 to which is "'lconnec'ted'a crank'168. .,Theispring v.169 is i`ri`gi` lyattached by thelpin170to` the base c l"fjoffthefframe:workfand on itsnother' 4end "jslattaehed'i tothe lower arm ofthe bell V.crank@1654:tending to normally: keepjthis 2t- :is new apparent -thattif thefsieeve, 167-. is

. Iotatedfbylthef crank 16,8.;in2fa' contrat-.clock- ."Wisejffdirectionfthe arm 1640i the bellici-'ank 165 willbemoved upwardlyan'd'to the left.

'410v hereafteng 'This vivall 171 is rigidly mount- 'ed in 'the frameA 99. To the left of :thegshelf 156,3; rigid-horizontal member' V17'2 is` prol vided; 'A spaceistherebyleft between the 'shelf 154 andthe member 172 and the shelf '156,-th`e' portion of this space abovethe shelf lbeing capable of being reduced by movementrof the shelf 156 ina-vertical plane.'

y 'The roll'of Vpaper 1531nay'be provided von its under surface witlrcarbon' paper, the' carbon side fof `which is' on .the lower side. lIVVhe'n fthe roll ofl aper is passing g Vfrom one roller'to the `ot er as shown in Fig.9, it i's therefore -e vident that if a second piece of paper "is Inserted beneath'the paper o fgthe roll 153, printing can be performed on this second `piece of paper when the `shelf 156 is raised so that the paper of theroll 153 `is brought into contact with the type or printing plates mounted on the vari- 00 ous disks of the printing registers. The printing performed on this second piece of paper is, ofcourse. in the form of a carbon copy' from the carbon paper placed underneathl the paper of the roll 153. In order to 55 facilitate lthe insertion of this additional .work 99is al shelf 154'provided with open- A of one of the electromagnets of the actuatpiece of paper, a guide 173 is provided against the edge 174 of which the edge of the paper is adapted to abut.' The edge 174 is made continuous with the left hand edge of themember 171 described above. 70

Having now described in detail the mechanism used in connection with my invention,

I will nextfproceed to describe the operation of the system las a Whole. This system is e diagrammatically yshown in Fig. 1. A bat-v tery `f175- is provided, to one terminal of whicliis attached -a conductory 176. This`v` conductor leads to one terminal of the switch.' 177, to the other terminal of which is attached-.the conductor 178 in contact with 80 the 'shaft 179;*v O11 this shaft 179 is .rigidly mounted a member 180 -which'is'l adapted to make electrical contact withthe 'ring 181.

-This ring is provided atiintervals in its perlphery with `insulating' seg'mentsx`182 so` -85 that *the various conducting -segmentsof the ring areentirely insulated from each other. As fshovvnfl in Fig.' 1*, these conducting segments.183,-\184 and 185 are three in number. To thersegmentrlis attached a conductor 99 184v't`erminating in'a 1ug`185. Similarly the'conductor 186 witli its plug 187 is attachedto 'the-conducting segment 184 and the conductor 188fwith itsl plug 189 is atta'ched-to the conducting segment 185. 95

In Fig. 1,1 have shown the above men- Y tionedfmethod of generating' electric yimpulses buthave not described in detail apparatus l for imparting various rates to the impulses .as mechanism v for accomplishing' 100 thisresult has been shown in said copending application Serial N o. 437,809, and forms no part' of this present application. My object is merelyto show means by tvhichimpulses maybe. produced without reference .to the'105 'rateof such impulses. Associated `with the plug 1857 are the jacks `190, 191 and 192.-

To a contact rof the jack is attached a v i conductor 193 which leads to the windings ing mechanism-associated with the register T 1. From this electromagnet the current passes'through the conductor 194 to the windings of one of the electromagnets associated with theregister X 1. Next the cur-l rent lpasses through the conductor 195 to the' point 196.- The i current continues through the conductor 197 to the point 198 and through the conductor 199 tothe lwindings of vone of the electromagnets of the ac- 120 tuating mechanism of the register X T. lt thenr passes through lthe conductor '200 to the point 201. then through the conductor 202 to the windings of one of the elertrw magnets of the actuating mechanism ot' the register G T. and then througlrtlw vonductor 203 back to the second pole of the battery 175 thereby completing the cin-uit. SimilarhY when the plug 185 is inserted in the jack-1917 the current may be traced from 15 to the electromagnet associated with the register G T and then through the conductor 203 to the pole of the battery 175.

If the plug. 185 is inserted in the jack 192, the current may be traced from the conductor 184: through the conductor 207 to the electromagnet associated with the register T 3 through the conductor 208 to one vof the electromagnets associated with the register X3then.throughthe conductor 29to"th'"point 198 and then through the conductor 1-99 to one of the electromagnets associated with the register X T, then through the conductors 200 and 202 toone of the electromagnets associated with the register G T and then through the conductor 203 to the pole of the battery 175.

If the plug 187 is inserted in any one of the jacks 210, 211 or 212 the circuit may be traced through one winding of the actuating mechanisms associated with the registers T 1, T 2 and T 3 respectively and through the windings of one electromagnet associated with the actuating mechanism of the registers B 1, B 2, and B 3. Again if the plug 189 is inserted in the jack 213, 214 or 215 the circuit may besimilarly traced through the winding of one of the electromagnets of the actuating mechanism of the registers Tf1, T 2 or T 3 respectively and through the windings of one electromagnet of the actuating mechanism associated with the registers A 1, A 2, or A 3 respectively. In every case it will be seen that the circuit is so constructed that if a register A 1, A 2, or A 3 is included in the circuit, the actuatl ing mechanism of the register A T is also so included, the same being true of the register B T Vwith respect to the registers B 1, B 2 and B 3; X T with. respect to the registers X 1, X 2 and X 3; and G T with respect to the registers T 1, T 2 and T 3.

It is now apparent .from'thc above description that according'to the system represanted in Fig. 1, we may represent three jobs, job 1 having associated with it the registers A 1,v and B 1, these registers representing respectively'the total Wages or the total wages and burden charges in department A and department B respectively. RegistervX 1 may represent any desired vitem of expense', for example, material. lt is evident that inasmuch as the conductors of the circuits, in which each of the registers A 1, B 1 and X 1 are included, also include the electromagnet of the actuating mechanism of the register T 1, the actuatiQns of this register will represent the total actuations of the register A 1, B 1 and X 1. Similarly, the re 'ster T 2 represents the total actuations oI the registers A 2, B 2 and -X 2, all of these registers being associated respect to eachother. It is, therefore, evident that the actuations of the register A T will represent the Y. total actuations of the registers A 1, A 2 and A 3. Similarly the register B T is actuated at a rate corresponding to the total actuations of the registers B 1, B 2 and B 3. X T is actuated at a rate corresponding to the total actuations of the registers X 1, X 2 and X 3 and theactuations of G T correspond to the total actuations of the registers T 1, T 2 and T 3.

Inconnection with theA printing feature of vmy invention, a battery 216 is provided, to one pole of which is attached the conductor 217 leading to one termimil of thc switch 218. To the other terminal of this switch is connected the conductor 219. To this conductor are connected conductors 220, 221, 222 and 223. Each of the conductors 220, 221, 222, 223 and the end of 219 terminates in a brush, these brushes bearing on the disks 224, 225, 226, 227 and 228 respectively which are rigidly mounted on the shaft 229. Between each disk is provided an insulating section 230. Each of these disks has an insulated se en t 231 covering most of the periphery o the disk but leaving a conducting segment 232 with which the above mentioned brushes are adapted to make contact.

The portions of the shaft 229 immediately adjacent to the disks are electrically connected with the conducting portions of the disks. To the portion of theshaft connected with the disk 221. the conductor 233 is electrically connected. A current on passing through this conductor goes to the winding of an electromagnet associated with the printing mechanism illustrated in Figs. v8 and 9. The purpose of this electromagnet will be described in detail hereafter. The current then passes through the conductor 234 to a second electromagnet whose function is the same as that which has just been described. The current next passes through the conductor 235 to the-plug 236 which is mounted in the insulating frame 237.

A spring contact 238 is associated with a jack into which the plug 237 is adapted to i be placed. To the springk contact 238 is attached the conductor 239 through which the current passes to the clectromagnet associ-v ated with v.the register N1, the purpose of this register being to manually set up .an

order number' which order number may be Vtransferred to the printing `mechanism as will be described hereafter. `Theorder `numv .ber register N 1 and its'associate'd 'decumulating mechanism are as representedin Figs. 6 and. 7. 'From this pointv the current passes 'through the conductory 240 to the second pole of the battery 216 thereby completing the circuit. From the-shaft associated with the disk 225 the current mayfbesimilarly `traced through the windings of:A the decumulating electromagnetassociated with the register VA 1 and'then through thevwindings of thev i 'decumulat'in electromagnet associated with register A which is connected in series with the windings ofthe decuinulating elecw tromagnets associated with the register A 1,

A 2.andk A 3. The current then reaches the conductorv 240 and 'returns to' the second 1 lpol'e'of the battery 216, thereby completing cumulating electromagnets associated "with the registers B 1, X1', and T, land the lregisters-i12 T, X T and G- T, which. are connected in series therewith. Similarly if "the plugs mounted in theinsulating frame 237 are inserted in the jacks associated with the'registersN 2, A 2,1132, X 2 and T 2,

"the circuits may be s imilarlytraced through fthe windings of the Adecumu'lating electro-v a magnets associatedv with V these registers. Thesame is. true'if theplugsare inserted' f N "3, A 3, B 3, ,X 3 and yT 3.

in the jacks associatedwitli the registers The operation. of my system willnow be understood. lVhen an order comes toa facz. tory it may begiven an order number. Be-

sides this, in many cases it is desirable also to givevthis'order a job number. The significance of the job number is that the various sets o f registers, as illustrated in Fig.

`1. are permanently given'numbers. Y. For example. the registers N 1, A 1, B 1, X 1 and. T. 1 are considered as associated with job 1;

N 2. A 2` B 2i'. X 2 and T2 as associated with fjob 2. etc. 1n other words, the job number merely indicates the 'series of registers on which it is most convenient to keep an account of the cost. The order number. on the other hand. is the number which is permanentlliy lassociated with the order and by which apermanent record of 'the cost is identified.

In Fig. 10. anorder is represented as it is originally made out in the factory: the various items in regard to invoicing. shipping instruction. etc., appear as usual together with the number and character ofthe articles which have been ordered. l There may also be provided on this order blank. a space for the job number, that is the series of registers on which an account of the cost will be kept.

rI he clerk, whose duty it is to do this work,

preferably sees what series of registers are not 1n voperation and assigns the order to Yoiie of. these series.- As shown in Fig. 10, this series or job 'number is assumed to be 3. A

way-bill maybe attached tothe actual work when it is started and this Way-bill, on which `is written the job number, may follow the .work through'the entire' series of o verations inthe factory. As-soon as the cler decides what series of registers maybe used to keep account of the cost Ofanyparticular order,-

he immediately manually sets up the order number in the order number register con nected with this series. Let us now assumeV that thev work s'started and the registers in.

connection with a given job 'are being actuated. In order to accomplish this result, it

is evident that the switch 177 .of Fig. 1 must 'is l be' closed, and the plugs associated with the yarioiis registers of the job must be inserted in their respective jacks, also the-switch 218 must be open or the plugs, by means offI which 'the decuinulating circuit is' closed,

vmust be withdrawn from the jacks associated with 'the registers of that particular job.

withdrawn from their respective jacks, or if it is desired to stop all of the registers associated with thevarious jobs, the switch 17 7 may be opened.v It is now possible to trails-v fer the readings of all of the registers ofa given job tothe printing .mechanism Vand then make apermanent record of these readings. This result is accomplished in' the following manner: When the actuations ofthe registers are stopped, the switch 218`is closed and the various plugs are inserted in the jacks connected with the windings of the various decuinulating electromagnets associated with the registers of a given job. The decu'inulating mechanisms associated with the various registers, except the order number register, are as` represented in Figs. 2, 3, -1 and 5 and the mechanism associated with the order number register is as shown in F igs. 6 and 7. It' is now apparent that with each revolution of the shaft 229, each of the registers associated with a particular job will be decuinulated one step. At the same time the corresponding printing registers, as indicated in Figs. 8 and 9, will accumulate `the same amount. When an)7 of the registers associated with the job reaches 0, the

1ool automatic device, which hasbeen described in detail above, becomes effective and the cirs cuit is broken thereby stopping the further actuation of the printing register.

associated with the job have been decumulated to 0 and -the printing registers have accumulated so that they give the same readings which the job registers indicated before they were decuinulated. A permanent record may now be made as described in connection with the printing mechanisms shown in Figs. 8 and 9. At the same time underneath the roll of paper the original order blank may be inserted, this blank being provided with a suitable space, as shown in Fig. 10, in which the printed record may be made. In this way the actual cost is shown on the original-order. 1When the permanent record has been made, the printing registers may be manually reset to 0 as 'explained in connection with the description of Figs. 8 and 9, a new order number may be assigned to the same series of registers and the whole operation may be repeated- It is 'desirable that not only a permanent record should be made of individual orders,

but also that a similar record should beA taken which will showthe total expenses in connection with all orders which have been executed in a factory within a given period of time. In order to accomplish this result, I provide two duplicatesets of printing registers which are connected in series as shown in Fig; 1. The two rolls of paper 241 and 242 are used in connection with these two sets of printing registers. After the records for each order have been made, the register associated with the roll 241 may be returned to O as explained above. The registersassociated with roll 242, however, are not returned to 0, but are allowed to accumulate. For example, if the record printedv on the roll 241 showed the total expense of $16.52,the record; printed on the roll 242 provided this was the first order, would show the same amount. The registers in connection with the roll 241 are set back to 0, and the record of the new order may be made, which we will assume is $20.48 'which amount is printed as a total after the completion of the order. The registers in connection with roll 242,A not being set back on the completion of the first order, will, at the completion of the second order, show a record of $37 .00. It is obvious that by using this system a daily record may be taken which will show the total costs in connectionA with executed Anection with unexecuted lorders tions of the various registers in connection with jobs 1, 2, and 3 are shown in this latter series f registers and when the registers of i A T, D T, X T and G T are decumulatedthe same amount. In this way it is evident that there is always a record on these regis-` ters showing the total net costs of unexccuted orders. It is obvious that printing registers may readi-ly be associated. with this series of registers so that a daily record may be made of these net expenses. Such a record would be very useful in connection with judgin the efficiency of the management of' a mi l, as the expenses in connection with unexecuted orders should, of course, be kept at the minimum.

It is evident that many minor changes could be made in the detailed construction which I have shown without departing from the spiiit of my invention.

' What I claim as new and desire to cover by United States Letters Patent is:

1. In an accounting system, an indicating register, an electromagnetically actuated decumulating mechanism associated with said register, a printing register, an electromag-l netically actuated accumulating mechanism for said printing register, means for including said mechanisms in the saine electric circuit, thereby decumulating said indicating register and 'accumulatingl said printing` register, and means for automatically breaking said circuit when said indicating regis-` l register, an electromagnetically actuated decumulatiiig mechanism associated with said register, a printing register, an electromagnetically actuated accumulating mechanism for said printing register, meansfor including said mechanisms in the same electric circuit, thereby decumulating said indicating register and accumulating said printing register, and means -for automatically breaking said circuit when said indicating register is decumulated to zero.

4. In an accounting system, an indicating register, an electromagnetically actuated decumulating mechanism associated with said register, a printing register, an electromagnetically actuated accumulating mechanism for said printingregister, means for including said mechanisms in the same lelectric circuit, thereby decumulating said indicating register and accumulating said printing register, and means for producing a record from said printing mechanism.

In an accounting system, an indicating register, an electromagnetic'ally actuated decumulating mechanism associatedy with said register, a printing register, an electromag- -netically actuated accumulating mechanism for said printing register, means forY including said mechanisms in the same electric circuit, thereby decumulating said indicating` register and accumulating said printing register, and means for bringing a recording sheet intol contact with said printing registers.

('i. In an accounting system, the combination'of an order number register. having a plurality of numeral wheels, a rotatable `carry-overmechanism associated with said wheels, means for removing said carry-over4 mechanism from engagement with `said wheels, means for securing said carry-over mechanism vin its engaged or disengaged position, and means for preventing the rotation of said carry-'over mechanism when it is disengaged Vfrom said wheels.

7. In combination,l an accounting register, electromagnetic decumulating mechanism for said register, and electric contacts operated by .said register when decumulated a predetermined amount to interrupt control of said mechanism.

`8. In combination, an accounting register, electromagnetic decumulating mechanism for said register, and electric contacts oper'- ated by said register when decumiilated to zero to interrupt control of said mechanism.

9. In combination, an accounting register, electromagnetic decumulating mechanism for said-registenan'd electric contacts operated by said register when decumulated to 1 zero to interrupt control of said mechanism until the register is again zero reading.

10, In combination, an accounting regis- "ter, electromagnetic decumulating `mechanism for said register, and electric contacts to break the circuit including said mechanism.`

-nism for vsaid register,

11. In combination, an accounting regis-l ter, electromagnetic decumulating mechaand electric contacts operated bysaid register when decumulated tozero' inbraakl the circuit including said mechanism, until the register is again, moved from its zero reading.

12. In combination, an accounting register, an electromagnetic decumulating device associated with-said register, a series of depressions in the indicating wheels of each register, a member adapted to engage moved from its said electromagnetic mechanism is included,-

and means v actuated by said member for opening said switch when said member engages in said depressions.

13. In combination, an accounting register, an' electromagnetic decumulating device associated with said register, a switch for opening and closing the circuit in which said switch having spring blades normally separated from each other, a series of depressions in the indicating wheelsv of said register, a member adapted to' engage in said depressions when all of said depres- 'said electromagnetic mechanism isincluded, e

sions are in a predetermined position and in the operating path of said member, van extension for said member, said 'extension bearing against one of said switch blades' and holding thetwo blades in contact whilev said member is prevented from enga 'ng in said depressions by the peripheries o the indicating wheels, said sgfitch blade adapted to force the said member into said depgessions when the depressions occupy a predetermined position.

14. In combination, an accounting register, an electromagnetic decumulating device associated with said register, a` switchY for. opening and closing the circuit'in which .said l electromagnetic mechanism' isincluded, said switch having spring blades normally separated from each other, a series of depresjsions in the indicating wheels osaid register, a member adapted to engage in said ioo depressions when all of said depressions are in a predetermined position and in the operiting path of said member, an insulating xtension for said member, said extension bearing against one of said switch blades and holding the two blades in contact while said member is preventedfrom engaging in said depressions by the peripheries o f the indicating'wheels, said switch blades adapted to force the said member into said depressions when the depressions occupy apredetermined position.

15. In a pr ting mechanism for concurrent y actuating eachI A device, the combination of a printing register, an actuating mechaof the pair of corresponding registers, and

means for inde ndently decumulating each Aregister of sai pairs;

17. In an accoimting system, the combination of two series of corresponding printing registers, an electromagnetic actuatingdevice associated with each of said registers, means for electromagnetically connecting the actuating mechanisms of the corresponding registers of the two series, said corresponding registers thereby adapted to be actuated simultaneously, and means for independently decumu'lating each of said registers.

18. In a`n accounting system, the'combination of two series of corresponding printing registers, an electromagnetic actuating device associated with each-of said registers,

means for electrically connectng inseries the actuating mechanisms of the correspond- 'ing registersl of lthe two series, said corresponding registers thereby adapted to be actuated simultaneously', and means for independently decumulating each of said registers. v 4

-19. In an accounting system, the combination" of a plurality of series of corresponding registers, each series adapted to indicate the costs of' a single order, an accumulating .actuating mechanism associated with leach of said registers, a series of registers fork totalizing the actuations of the corresponding registers ofthe various series, an accumulating actuatin mechanism, associated with each of ,sald totalizing registers, means for summating the actuations of all corresponding registers in the totalizin registers, means for decumu'lating any o sald series of registers on the completion ofan order, and means for automatically decumulating the corresponding totalizing registers the same amount, said. totalizing registers thereby' adapted to indicate the net costs of unfinished orders.

20. In an accountin -system, the combination of a plurality lo series ofvcorresponding registers, each series adapted to indicate the costs of a single order, anfelectromagnetic accumulating actuating mechanism associated with each ofsaid registers, a series of registers for totalizing the actuation of the corresponding registers of Vthe various series, an electromagnetic accumulating actuating mechanism associated with each of said totalizing/ registers, means for summating the actuations of all the corresponding registers inthe totalizing registers, electromagnetic means for decumulating'any of said series of registers on the completion of an order, and electromagnetic means for automatically decuniulating the corresponding totalizing registers the same amount,- said totalizirg registers thereby-adapted to indicate the net cost of unfinished orders.

In witness whereof, I hereunto subscribe my'name this 18th day of May, A. I). 1909.

CHARLES H. TALLMADGE.

Witnesses:

FRED O. Hausen, HENRY M. HUXLEY. 

